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OrcaSlicer-bambulab/src/slic3r/GUI/Gizmos/GLGizmosCommon.cpp
T
Lukas Matena 5d4014a4a5 ObjectClipper implementation, hollowing gizmo reenabled
ObjectClipper tracks active mesh (incl. possible hollowing), remembers clipping plane position and can render the cut on demand
Hollowing gizmo uses the new infrastructure
2020-04-07 16:45:16 +02:00

335 lines
9.8 KiB
C++

#include "GLGizmosCommon.hpp"
#include <cassert>
#include "slic3r/GUI/GLCanvas3D.hpp"
#include "libslic3r/SLAPrint.hpp"
#include "slic3r/GUI/GUI_App.hpp"
#include "slic3r/GUI/Camera.hpp"
#include <GL/glew.h>
namespace Slic3r {
namespace GUI {
using namespace CommonGizmosDataObjects;
CommonGizmosDataPool::CommonGizmosDataPool(GLCanvas3D* canvas)
: m_canvas(canvas)
{
using c = CommonGizmosDataID;
m_data[c::SelectionInfo].reset( new SelectionInfo(this));
m_data[c::InstancesHider].reset( new InstancesHider(this));
m_data[c::HollowedMesh].reset( new HollowedMesh(this));
m_data[c::Raycaster].reset( new Raycaster(this));
m_data[c::ObjectClipper].reset(new ObjectClipper(this));
//m_data[c::SupportsClipper].reset( new SupportsClipper(this));
}
void CommonGizmosDataPool::update(CommonGizmosDataID required)
{
assert(check_dependencies(required));
for (auto& [id, data] : m_data) {
if (int(required) & int(CommonGizmosDataID(id)))
data->update();
else
if (data->is_valid())
data->release();
}
}
SelectionInfo* CommonGizmosDataPool::selection_info() const
{
SelectionInfo* sel_info = dynamic_cast<SelectionInfo*>(m_data.at(CommonGizmosDataID::SelectionInfo).get());
assert(sel_info);
return sel_info->is_valid() ? sel_info : nullptr;
}
HollowedMesh* CommonGizmosDataPool::hollowed_mesh() const
{
HollowedMesh* hol_mesh = dynamic_cast<HollowedMesh*>(m_data.at(CommonGizmosDataID::HollowedMesh).get());
assert(hol_mesh);
return hol_mesh->is_valid() ? hol_mesh : nullptr;
}
Raycaster* CommonGizmosDataPool::raycaster() const
{
Raycaster* rc = dynamic_cast<Raycaster*>(m_data.at(CommonGizmosDataID::Raycaster).get());
assert(rc);
return rc->is_valid() ? rc : nullptr;
}
ObjectClipper* CommonGizmosDataPool::object_clipper() const
{
ObjectClipper* oc = dynamic_cast<ObjectClipper*>(m_data.at(CommonGizmosDataID::ObjectClipper).get());
assert(oc);
return oc->is_valid() ? oc : nullptr;
}
#ifndef NDEBUG
// Check the required resources one by one and return true if all
// dependencies are met.
bool CommonGizmosDataPool::check_dependencies(CommonGizmosDataID required) const
{
// This should iterate over currently required data. Each of them should
// be asked about its dependencies and it must check that all dependencies
// are also in required and before the current one.
for (auto& [id, data] : m_data) {
// in case we don't use this, the deps are irrelevant
if (! (int(required) & int(CommonGizmosDataID(id))))
continue;
CommonGizmosDataID deps = data->get_dependencies();
assert(int(deps) == (int(deps) & int(required)));
}
return true;
}
#endif // NDEBUG
void SelectionInfo::on_update()
{
const Selection& selection = get_pool()->get_canvas()->get_selection();
if (selection.is_single_full_instance()) {
m_model_object = selection.get_model()->objects[selection.get_object_idx()];
m_z_shift = selection.get_volume(*selection.get_volume_idxs().begin())->get_sla_shift_z();
}
else
m_model_object = nullptr;
}
void SelectionInfo::on_release()
{
m_model_object = nullptr;
}
int SelectionInfo::get_active_instance() const
{
const Selection& selection = get_pool()->get_canvas()->get_selection();
return selection.get_instance_idx();
}
void InstancesHider::on_update()
{
const ModelObject* mo = get_pool()->selection_info()->model_object();
int active_inst = get_pool()->selection_info()->get_active_instance();
GLCanvas3D* canvas = get_pool()->get_canvas();
if (mo && active_inst != -1) {
canvas->toggle_model_objects_visibility(false);
canvas->toggle_model_objects_visibility(true, mo, active_inst);
}
else
canvas->toggle_model_objects_visibility(true);
}
void InstancesHider::on_release()
{
get_pool()->get_canvas()->toggle_model_objects_visibility(true);
}
void HollowedMesh::on_update()
{
const ModelObject* mo = get_pool()->selection_info()->model_object();
if (! mo)
return;
const GLCanvas3D* canvas = get_pool()->get_canvas();
const PrintObjects& print_objects = canvas->sla_print()->objects();
const SLAPrintObject* print_object = m_print_object_idx != -1
? print_objects[m_print_object_idx]
: nullptr;
// Find the respective SLAPrintObject.
if (m_print_object_idx < 0 || m_print_objects_count != int(print_objects.size())) {
m_print_objects_count = print_objects.size();
m_print_object_idx = -1;
for (const SLAPrintObject* po : print_objects) {
++m_print_object_idx;
if (po->model_object()->id() == mo->id()) {
print_object = po;
break;
}
}
}
// If there is a valid SLAPrintObject, check state of Hollowing step.
if (print_object) {
if (print_object->is_step_done(slaposDrillHoles) && print_object->has_mesh(slaposDrillHoles)) {
size_t timestamp = print_object->step_state_with_timestamp(slaposDrillHoles).timestamp;
if (timestamp > m_old_hollowing_timestamp) {
const TriangleMesh& backend_mesh = print_object->get_mesh_to_print();
m_hollowed_mesh_transformed.reset(new TriangleMesh(backend_mesh));
Transform3d trafo_inv = canvas->sla_print()->sla_trafo(*mo).inverse();
m_hollowed_mesh_transformed->transform(trafo_inv);
m_old_hollowing_timestamp = timestamp;
}
}
else {
m_hollowed_mesh_transformed.reset(nullptr);
m_old_hollowing_timestamp = 0;
}
}
}
void HollowedMesh::on_release()
{
m_hollowed_mesh_transformed.reset();
m_old_hollowing_timestamp = 0;
m_print_object_idx = -1;
}
const TriangleMesh* HollowedMesh::get_hollowed_mesh() const
{
return m_hollowed_mesh_transformed.get();
}
void Raycaster::on_update()
{
const ModelObject* mo = get_pool()->selection_info()->model_object();
if (! mo)
return;
std::vector<const TriangleMesh*> meshes;
const std::vector<ModelVolume*>& mvs = mo->volumes;
if (mvs.size() == 1) {
assert(mvs.front()->is_model_part());
const HollowedMesh* hollowed_mesh_tracker = get_pool()->hollowed_mesh();
if (hollowed_mesh_tracker && hollowed_mesh_tracker->get_hollowed_mesh())
meshes.push_back(hollowed_mesh_tracker->get_hollowed_mesh());
}
if (meshes.empty()) {
for (const ModelVolume* mv : mvs) {
if (mv->is_model_part())
meshes.push_back(&mv->mesh());
}
}
if (meshes != m_old_meshes) {
m_raycasters.clear();
for (const TriangleMesh* mesh : meshes)
m_raycasters.emplace_back(new MeshRaycaster(*mesh));
m_old_meshes = meshes;
}
}
void Raycaster::on_release()
{
m_raycasters.clear();
m_old_meshes.clear();
}
std::vector<const MeshRaycaster*> Raycaster::raycasters() const
{
std::vector<const MeshRaycaster*> mrcs;
for (const auto& raycaster_unique_ptr : m_raycasters)
mrcs.push_back(raycaster_unique_ptr.get());
return mrcs;
}
void ObjectClipper::on_update()
{
const ModelObject* mo = get_pool()->selection_info()->model_object();
if (! mo)
return;
// which mesh should be cut?
const TriangleMesh* mesh = &mo->volumes.front()->mesh();
bool has_hollowed = get_pool()->hollowed_mesh() && get_pool()->hollowed_mesh()->get_hollowed_mesh();
if (has_hollowed)
mesh = get_pool()->hollowed_mesh()->get_hollowed_mesh();
if (mesh != m_old_mesh) {
m_clipper.reset(new MeshClipper);
m_clipper->set_mesh(*mesh);
m_old_mesh = mesh;
m_active_inst_bb_radius =
mo->instance_bounding_box(get_pool()->selection_info()->get_active_instance()).radius();
//if (has_hollowed && m_clp_ratio != 0.)
// m_clp_ratio = 0.25;
}
}
void ObjectClipper::on_release()
{
m_clipper.reset();
m_old_mesh = nullptr;
m_clp.reset();
}
void ObjectClipper::render_cut() const
{
if (m_clp_ratio == 0.)
return;
const SelectionInfo* sel_info = get_pool()->selection_info();
const ModelObject* mo = sel_info->model_object();
Geometry::Transformation inst_trafo = mo->instances[sel_info->get_active_instance()]->get_transformation();
Geometry::Transformation vol_trafo = mo->volumes.front()->get_transformation();
Geometry::Transformation trafo = inst_trafo * vol_trafo;
trafo.set_offset(trafo.get_offset() + Vec3d(0., 0., sel_info->get_sla_shift()));
m_clipper->set_plane(*m_clp);
m_clipper->set_transformation(trafo);
if (! m_clipper->get_triangles().empty()) {
::glPushMatrix();
::glColor3f(1.0f, 0.37f, 0.0f);
::glBegin(GL_TRIANGLES);
for (const Vec3f& point : m_clipper->get_triangles())
::glVertex3f(point(0), point(1), point(2));
::glEnd();
::glPopMatrix();
}
}
void ObjectClipper::set_position(double pos, bool keep_normal)
{
const ModelObject* mo = get_pool()->selection_info()->model_object();
int active_inst = get_pool()->selection_info()->get_active_instance();
double z_shift = get_pool()->selection_info()->get_sla_shift();
Vec3d normal = (keep_normal && m_clp) ? m_clp->get_normal() : -wxGetApp().plater()->get_camera().get_dir_forward();
const Vec3d& center = mo->instances[active_inst]->get_offset() + Vec3d(0., 0., z_shift);
float dist = normal.dot(center);
if (pos < 0.)
pos = m_clp_ratio;
m_clp_ratio = pos;
m_clp.reset(new ClippingPlane(normal, (dist - (-m_active_inst_bb_radius) - m_clp_ratio * 2*m_active_inst_bb_radius)));
get_pool()->get_canvas()->set_as_dirty();
}
} // namespace GUI
} // namespace Slic3r